Bio Energy

Bioenergy refers to the bio-currents that reside in all sentient beings. In short, it is the vital force of life. It is believed that this energy force envelops every cell of the body and serves as the "hard wiring" of the individual that channels information between energy points and fields. This energy also exists outside the body as an electromagnetic field, an extension of bioenergy commonly thought of as the astral body or aura.

Bioenergy therapy embraces the importance of maintaining a balanced flow between energy points within the body as well as the external energy field. Through the use of various forms of bodywork, or energy healing, a bioenergy practitioner strives to correct or improve impaired energy flow in order to promote wellness. This type of mind-body approach to healing recognizes the connection between the body and the brain, and endeavors to trigger physiological changes by manipulating the energy fields between them.

Scope and Importance:
For last 5-6 years, the words Bioenergy and biofuel are gaining much publicity, but we are still using non-renewable petroleum-based products as fuels. So much research has been done and currently going on the field of bioenergy & biofuels, but still the commercialization of these has not been undertaken.

The Earth's surface available for tillable crops is only 3.34%, with an added 8.7% usable for pasture land. The use, of this very limited space, for ethanol or bio butanol crop production seems inappropriate faced with the potential of 10 billion mouths to feed by 2050. The utilization of the waste from these mouths does make sense. The rapid recycling of nutrients, the cyclic economy, first for food and then for energy (bio gas), followed by purification and nutrient extraction for algae production and application for Bio fuels, with the remaining wastewater being applied locally through irrigation systems to agricultural crops. This resulting transpiration precipitates the water out of the atmosphere in the form of dew within 200 km retaining the water in the bioregion.

By 2010, there was 35 GW (47,000,000 hp) of all-inclusive introduced Bioenergy limit for power era, of which 7 GW (9,400,000 hp) was in the United States. In its most tight sense it is an equivalent word to biofuel, which is fuel inferred from organic sources. In its more extensive sense it incorporates Biomass, the natural material utilized as a biofuel, and also the social, monetary, logical and specialized fields connected with utilizing organic hotspots for vitality. This is a typical confusion, as bioenergy is the vitality separated from the biomass, as the biomass is the fuel and the bioenergy is the vitality contained in the fuel. One of the favorable circumstances of biomass fuel is that it is regularly a by-item, buildup or waste-result of different methods, for example, cultivating, creature farming and ranger service. In principle this implies there is no rival in the middle of fuel and nourishment generation, in spite of the fact that this is not generally the situation. Biomass is the material inferred from as of late living creatures, which incorporates plants, creatures and their results. Fertilizer, enclosure waste and yield deposits are all wellsprings of biomass. It is a renewable vitality source focused around the carbon cycle, not at all like other common assets, for example, petroleum, coal, and atomic fills. An alternate source incorporates Animal waste, which is a relentless and unavoidable poison created fundamentally by the creatures housed in mechanical measured ranches. There are likewise rural items particularly being developed for biofuel creation. These incorporate corn, and soybeans and to some extent willow and switch grass on a precommercial examination level, principally in the United States; rapeseed, wheat, sugar beet, and willow (15,000 ha or 37,000 sections of land in Sweden) basically in Europe; sugarcane in Brazil; palm oil and miscanthus in Southeast Asia; sorghum and cassava in China; and jatropha in India. Hemp has likewise been demonstrated to act as a biofuel. Biodegradable yields from industry, farming, ranger service and families can be utilized for Biofuel generation, utilizing e.g. anaerobic processing to deliver biogas, gasification to create syngas or by immediate burning. Samples of Biodegradable squanders incorporate straw, timber, compost, rice husks, sewage, and nourishment waste. The utilization of biomass energizes can in this way help waste administration and also fuel security and help to forestall or ease off environmental change, albeit alone they are not an extensive answer for these issues.

Market Analysis:

The value of products produced by gas-to-liquid (GTL), coal-to-liquid (CTL) and biomass to liquid processes was worth $8.4 billion in 2014. This is expected to grow from $8.6 billion in 2015 to $11.8 billion in 2020, with a compound annual growth rate (CAGR) of 6.5% from 2015 to 2020. An overview of the market for GTL processes for chemicals and energy production. Analyses of market trends, with data from 2014, estimates for 2015, and projections of CAGRs through 2020.Discussion on the use of GTL processes to produce ultraclean diesel fuels and high-quality chemical products such as waxes. An assessment of the role of GTL as an enabling technology for the production of clean transportation fuels.